Avoid overriding $RUSTFLAGS when needed for rustc 1.63

[dnssec-prover] / src / validation.rs

//! Utilities to deserialize and validate RFC 9102 proofs

use alloc::borrow::ToOwned;
use alloc::vec::Vec;
use alloc::vec;
use core::cmp::{self, Ordering};

use crate::base32;
use crate::crypto;
use crate::rr::*;
use crate::ser::write_name;
use crate::MAX_PROOF_STEPS;

/// Gets the trusted root anchors
///
/// These are available at <https://data.iana.org/root-anchors/root-anchors.xml>
pub fn root_hints() -> Vec<DS> {
        #[allow(unused_mut)]
        let mut res = vec![DS {
                name: ".".try_into().unwrap(), key_tag: 19036, alg: 8, digest_type: 2,
                digest: hex_lit::hex!("49AAC11D7B6F6446702E54A1607371607A1A41855200FD2CE1CDDE32F24E8FB5").to_vec(),
        }, DS {
                name: ".".try_into().unwrap(), key_tag: 20326, alg: 8, digest_type: 2,
                digest: hex_lit::hex!("E06D44B80B8F1D39A95C0B0D7C65D08458E880409BBC683457104237C7F8EC8D").to_vec(),
        }];
        // In tests, add the trust anchor from RFC 9102
        #[cfg(test)]
        res.push(DS {
                name: ".".try_into().unwrap(), key_tag: 47005, alg: 13, digest_type: 2,
                digest: hex_lit::hex!("2eb6e9f2480126691594d649a5a613de3052e37861634641bb568746f2ffc4d4").to_vec(),
        });
        res
}

#[derive(Debug, PartialEq)]
/// An error when validating DNSSEC signatures or other data
pub enum ValidationError {
        /// An algorithm used in signing was not supported.
        ///
        /// In general DNS usage the resulting data should be used anyway, as we were able to verify
        /// that a zone wished to use the unsupported algorithm.
        ///
        /// However, in cases where signing is mandatory, this can be treated as an error.
        UnsupportedAlgorithm,
        /// The provided data was invalid or signatures did not validate.
        Invalid,
        /// We would need to validate more than [`MAX_PROOF_STEPS`] sets of [`RRSig`]s to validate the
        /// proof we were given.
        ValidationCountLimited,
}

fn verify_rrsig<'a, RR: WriteableRecord, Keys>(sig: &RRSig, dnskeys: Keys, mut records: Vec<&RR>)
-> Result<(), ValidationError>
where Keys: IntoIterator<Item = &'a DnsKey> {
        for record in records.iter() {
                if sig.ty != record.ty() { return Err(ValidationError::Invalid); }
        }
        for dnskey in dnskeys.into_iter() {
                if dnskey.key_tag() == sig.key_tag {
                        // Protocol must be 3, otherwise its not DNSSEC
                        if dnskey.protocol != 3 { continue; }
                        // The ZONE flag must be set if we're going to validate RRs with this key.
                        if dnskey.flags & 0b1_0000_0000 == 0 { continue; }
                        if dnskey.alg != sig.alg { continue; }

                        let mut hash_ctx = match sig.alg {
                                8 => crypto::hash::Hasher::sha256(),
                                10 => crypto::hash::Hasher::sha512(),
                                13 => crypto::hash::Hasher::sha256(),
                                14 => crypto::hash::Hasher::sha384(),
                                15 => crypto::hash::Hasher::sha512(),
                                _ => return Err(ValidationError::UnsupportedAlgorithm),
                        };

                        hash_ctx.update(&sig.ty.to_be_bytes());
                        hash_ctx.update(&sig.alg.to_be_bytes());
                        hash_ctx.update(&sig.labels.to_be_bytes());
                        hash_ctx.update(&sig.orig_ttl.to_be_bytes());
                        hash_ctx.update(&sig.expiration.to_be_bytes());
                        hash_ctx.update(&sig.inception.to_be_bytes());
                        hash_ctx.update(&sig.key_tag.to_be_bytes());
                        write_name(&mut hash_ctx, &sig.key_name);

                        records.sort_unstable();

                        for record in records.iter() {
                                let record_labels = record.name().labels() as usize;
                                let labels = sig.labels.into();
                                // For NSec types, the name should already match the wildcard, so we don't do any
                                // filtering here. This is relied upon in `verify_rr_stream` to check whether an
                                // NSec record is matching via wildcard (as otherwise we'd allow a resolver to
                                // change the name out from under us and change the wildcard to something else).
                                if record.ty() != NSec::TYPE && record_labels != labels {
                                        if record_labels < labels { return Err(ValidationError::Invalid); }
                                        let signed_name = record.name().trailing_n_labels(sig.labels);
                                        debug_assert!(signed_name.is_some());
                                        if let Some(name) = signed_name {
                                                hash_ctx.update(b"\x01*");
                                                write_name(&mut hash_ctx, name);
                                        } else { return Err(ValidationError::Invalid); }
                                } else {
                                        write_name(&mut hash_ctx, record.name());
                                }
                                hash_ctx.update(&record.ty().to_be_bytes());
                                hash_ctx.update(&1u16.to_be_bytes()); // The INternet class
                                hash_ctx.update(&sig.orig_ttl.to_be_bytes());
                                record.serialize_u16_len_prefixed(&mut hash_ctx);
                        }

                        let hash = hash_ctx.finish();
                        let sig_validation = match sig.alg {
                                8|10 => crypto::rsa::validate_rsa(&dnskey.pubkey, &sig.signature, hash.as_ref())
                                        .map_err(|_| ValidationError::Invalid),
                                13 => crypto::secp256r1::validate_ecdsa(&dnskey.pubkey, &sig.signature, hash.as_ref())
                                        .map_err(|_| ValidationError::Invalid),
                                14 => crypto::secp384r1::validate_ecdsa(&dnskey.pubkey, &sig.signature, hash.as_ref())
                                        .map_err(|_| ValidationError::Invalid),
                                // TODO: 15 => ED25519
                                _ => return Err(ValidationError::UnsupportedAlgorithm),
                        };
                        #[cfg(fuzzing)] {
                                // When fuzzing, treat any signature starting with a 1 as valid, but only after
                                // parsing and checking signatures to give that code a chance to panic.
                                if sig.signature.get(0) == Some(&1) {
                                        return Ok(());
                                }
                        }

                        // Note that technically there could be a key tag collision here, causing spurious
                        // verification failure. In most zones, there's only 2-4 DNSKEY entries, meaning a
                        // spurious collision shouldn't be much more often than one every billion zones. Much
                        // more likely in such a case, someone is just trying to do a KeyTrap attack, so we
                        // simply hard-fail and return an error immediately.
                        sig_validation?;

                        return Ok(());
                }
        }
        Err(ValidationError::Invalid)
}

/// Verify [`RRSig`]s over [`DnsKey`], returning a reference to the [`RRSig`] that matched, if any.
fn verify_dnskeys<'r, 'd, RI, R, DI, D>(sigs: RI, dses: DI, records: Vec<&DnsKey>)
-> Result<&'r RRSig, ValidationError>
where RI: IntoIterator<IntoIter = R>, R: Iterator<Item = &'r RRSig>,
      DI: IntoIterator<IntoIter = D>, D: Iterator<Item = &'d DS> + Clone {
        let mut validated_dnskeys = Vec::with_capacity(records.len());
        let dses = dses.into_iter();

        let mut had_known_digest_type = false;
        let mut had_ds = false;
        for ds in dses.clone() {
                had_ds = true;
                if ds.digest_type == 1 || ds.digest_type == 2 || ds.digest_type == 4 {
                        had_known_digest_type = true;
                        break;
                }
        }
        if !had_ds { return Err(ValidationError::Invalid); }
        if !had_known_digest_type { return Err(ValidationError::UnsupportedAlgorithm); }

        for dnskey in records.iter() {
                // Only use SHA1 DS records if we don't have any SHA256/SHA384 DS RRs.
                let trust_sha1 = dses.clone().all(|ds| ds.digest_type != 2 && ds.digest_type != 4);
                for ds in dses.clone() {
                        if ds.alg != dnskey.alg { continue; }
                        if dnskey.key_tag() == ds.key_tag {
                                let mut ctx = match ds.digest_type {
                                        1 if trust_sha1 => crypto::hash::Hasher::sha1(),
                                        2 => crypto::hash::Hasher::sha256(),
                                        4 => crypto::hash::Hasher::sha384(),
                                        _ => continue,
                                };
                                write_name(&mut ctx, &dnskey.name);
                                ctx.update(&dnskey.flags.to_be_bytes());
                                ctx.update(&dnskey.protocol.to_be_bytes());
                                ctx.update(&dnskey.alg.to_be_bytes());
                                ctx.update(&dnskey.pubkey);
                                let hash = ctx.finish();
                                if hash.as_ref() == ds.digest {
                                        validated_dnskeys.push(*dnskey);
                                        break;
                                }
                        }
                }
        }

        let mut found_unsupported_alg = false;
        for sig in sigs {
                match verify_rrsig(sig, validated_dnskeys.iter().copied(), records.clone()) {
                        Ok(()) => return Ok(sig),
                        Err(ValidationError::UnsupportedAlgorithm) => {
                                // There may be redundant signatures by different keys, where one we don't
                                // supprt and another we do. Ignore ones we don't support, but if there are
                                // no more, return UnsupportedAlgorithm
                                found_unsupported_alg = true;
                        },
                        Err(ValidationError::ValidationCountLimited) => {
                                debug_assert!(false, "verify_rrsig doesn't internally limit");
                                return Err(ValidationError::ValidationCountLimited);
                        },
                        Err(ValidationError::Invalid) => {
                                // If a signature is invalid, just immediately fail, avoiding KeyTrap issues.
                                return Err(ValidationError::Invalid);
                        },
                }
        }

        if found_unsupported_alg {
                Err(ValidationError::UnsupportedAlgorithm)
        } else {
                Err(ValidationError::Invalid)
        }
}

/// Given a set of [`RR`]s, [`verify_rr_stream`] checks what it can and returns the set of
/// non-[`RRSig`]/[`DnsKey`]/[`DS`] records which it was able to verify using this struct.
///
/// It also contains signing and expiry times, which must be validated before considering the
/// contained records verified.
#[derive(Debug, Clone)]
pub struct VerifiedRRStream<'a> {
        /// The set of verified [`RR`]s, not including [`DnsKey`], [`RRSig`], [`NSec`], and [`NSec3`]
        /// records.
        ///
        /// These are not valid unless the current UNIX time is between [`Self::valid_from`] and
        /// [`Self::expires`].
        pub verified_rrs: Vec<&'a RR>,
        /// The latest [`RRSig::inception`] of all the [`RRSig`]s validated to verify
        /// [`Self::verified_rrs`].
        ///
        /// Any records in [`Self::verified_rrs`] should not be considered valid unless this is before
        /// the current UNIX time.
        ///
        /// While the field here is a u64, the algorithm used to identify rollovers will fail in 2133.
        pub valid_from: u64,
        /// The earliest [`RRSig::expiration`] of all the [`RRSig`]s validated to verify
        /// [`Self::verified_rrs`].
        ///
        /// Any records in [`Self::verified_rrs`] should not be considered valid unless this is after
        /// the current UNIX time.
        ///
        /// While the field here is a u64, the algorithm used to identify rollovers will fail in 2133.
        pub expires: u64,
        /// The minimum [`RRSig::orig_ttl`] of all the [`RRSig`]s validated to verify
        /// [`Self::verified_rrs`].
        ///
        /// Any caching of [`Self::verified_rrs`] must not last longer than this value, in seconds.
        pub max_cache_ttl: u32,
}

fn resolve_time(time: u32) -> u64 {
        // RFC 2065 was published in January 1997, so we arbitrarily use that as a cutoff and assume
        // any timestamps before then are actually past 2106 instead.
        // We ignore leap years for simplicity.
        if time < 60*60*24*365*27 {
                (time as u64) + (u32::MAX as u64)
        } else {
                time.into()
        }
}

fn nsec_ord(a: &str, b: &str) -> Ordering {
        let mut a_label_iter = a.rsplit('.');
        let mut b_label_iter = b.rsplit('.');
        loop {
                match (a_label_iter.next(), b_label_iter.next()) {
                        (Some(_), None) => return Ordering::Greater,
                        (None, Some(_)) => return Ordering::Less,
                        (Some(a_label), Some(b_label)) => {
                                let mut a_bytes = a_label.bytes();
                                let mut b_bytes = b_label.bytes();
                                loop {
                                        match (a_bytes.next(), b_bytes.next()) {
                                                (Some(_), None) => return Ordering::Greater,
                                                (None, Some(_)) => return Ordering::Less,
                                                (Some(mut a), Some(mut b)) => {
                                                        if a.is_ascii_uppercase() {
                                                                a += b'a' - b'A';
                                                        }
                                                        if b.is_ascii_uppercase() {
                                                                b += b'a' - b'A';
                                                        }
                                                        if a != b { return a.cmp(&b); }
                                                },
                                                (None, None) => break,
                                        }
                                }
                        },
                        (None, None) => return Ordering::Equal,
                }
        }
}
fn nsec_ord_extra<T, U>(a: &(&str, T, U), b: &(&str, T, U)) -> Ordering {
        nsec_ord(a.0, b.0)
}

#[cfg(test)]
#[test]
fn rfc4034_sort_test() {
        // Test nsec_ord based on RFC 4034 section 6.1's example
        // Note that we replace the \200 example  with \7f as I have no idea what \200 is
        let v = vec!["example.", "a.example.", "yljkjljk.a.example.", "Z.a.example.",
                "zABC.a.EXAMPLE.", "z.example.", "\001.z.example.", "*.z.example.", "\x7f.z.example."];
        let mut sorted = v.clone();
        sorted.sort_unstable_by(|a, b| nsec_ord(*a, *b));
        assert_eq!(sorted, v);
}

/// Verifies the given set of resource records.
///
/// Given a set of arbitrary records, this attempts to validate DNSSEC data from the [`root_hints`]
/// through to any supported non-DNSSEC record types.
///
/// All records which could be validated are returned, though if an error is found validating any
/// contained record, only `Err` will be returned.
///
/// You MUST check that the current UNIX time is between [`VerifiedRRStream::valid_from`] and
/// [`VerifiedRRStream::expires`].
pub fn verify_rr_stream<'a>(inp: &'a [RR]) -> Result<VerifiedRRStream<'a>, ValidationError> {
        let mut zone = ".";
        let mut res = Vec::new();
        let mut rrs_needing_non_existence_proofs = Vec::new();
        let mut pending_ds_sets = Vec::with_capacity(1);
        let mut latest_inception = 0;
        let mut earliest_expiry = u64::MAX;
        let mut min_ttl = u32::MAX;
        let mut rrsig_sets_validated = 0;
        'next_zone: while zone == "." || !pending_ds_sets.is_empty() {
                let next_ds_set;
                if let Some((next_zone, ds_set)) = pending_ds_sets.pop() {
                        next_ds_set = Some(ds_set);
                        zone = next_zone;
                } else {
                        debug_assert_eq!(zone, ".");
                        next_ds_set = None;
                }

                rrsig_sets_validated += 1;
                if rrsig_sets_validated > MAX_PROOF_STEPS {
                        return Err(ValidationError::ValidationCountLimited);
                }

                let dnskey_rrsigs = inp.iter()
                        .filter_map(|rr| if let RR::RRSig(sig) = rr { Some(sig) } else { None })
                        .filter(|rrsig| rrsig.name.as_str() == zone && rrsig.ty == DnsKey::TYPE);
                let dnskeys = inp.iter()
                        .filter_map(|rr| if let RR::DnsKey(dnskey) = rr { Some(dnskey) } else { None })
                        .filter(move |dnskey| dnskey.name.as_str() == zone);
                let root_hints = root_hints();
                let verified_dnskey_rrsig = if zone == "." {
                        verify_dnskeys(dnskey_rrsigs, &root_hints, dnskeys.clone().collect())?
                } else {
                        debug_assert!(next_ds_set.is_some());
                        if next_ds_set.is_none() { break 'next_zone; }
                        verify_dnskeys(dnskey_rrsigs, next_ds_set.clone().unwrap(), dnskeys.clone().collect())?
                };
                latest_inception = cmp::max(latest_inception, resolve_time(verified_dnskey_rrsig.inception));
                earliest_expiry = cmp::min(earliest_expiry, resolve_time(verified_dnskey_rrsig.expiration));
                min_ttl = cmp::min(min_ttl, verified_dnskey_rrsig.orig_ttl);

                for rrsig in inp.iter()
                        .filter_map(|rr| if let RR::RRSig(sig) = rr { Some(sig) } else { None })
                        .filter(move |rrsig| rrsig.key_name.as_str() == zone && rrsig.ty != DnsKey::TYPE)
                {
                        rrsig_sets_validated += 1;
                        if rrsig_sets_validated > MAX_PROOF_STEPS {
                                return Err(ValidationError::ValidationCountLimited);
                        }

                        if !rrsig.name.ends_with(zone) { return Err(ValidationError::Invalid); }
                        let signed_records = inp.iter()
                                .filter(|rr| rr.name() == &rrsig.name && rr.ty() == rrsig.ty);
                        match verify_rrsig(rrsig, dnskeys.clone(), signed_records.clone().collect()) {
                                Ok(()) => {},
                                Err(ValidationError::UnsupportedAlgorithm) => continue,
                                Err(ValidationError::ValidationCountLimited) => {
                                        debug_assert!(false, "verify_rrsig doesn't internally limit");
                                        return Err(ValidationError::ValidationCountLimited);
                                },
                                Err(ValidationError::Invalid) => {
                                        // If a signature is invalid, just immediately fail, avoiding KeyTrap issues.
                                        return Err(ValidationError::Invalid);
                                }
                        }
                        latest_inception = cmp::max(latest_inception, resolve_time(rrsig.inception));
                        earliest_expiry = cmp::min(earliest_expiry, resolve_time(rrsig.expiration));
                        min_ttl = cmp::min(min_ttl, rrsig.orig_ttl);
                        match rrsig.ty {
                                // RRSigs shouldn't cover child `DnsKey`s or other `RRSig`s
                                RRSig::TYPE|DnsKey::TYPE => return Err(ValidationError::Invalid),
                                DS::TYPE => {
                                        if !pending_ds_sets.iter().any(|(pending_zone, _)| pending_zone == &rrsig.name.as_str()) {
                                                pending_ds_sets.push((
                                                        &rrsig.name,
                                                        signed_records.filter_map(|rr|
                                                                if let RR::DS(ds) = rr { Some(ds) }
                                                                else { debug_assert!(false, "We already filtered by type"); None })
                                                ));
                                        }
                                },
                                _ => {
                                        if rrsig.labels != rrsig.name.labels() && rrsig.ty != NSec::TYPE {
                                                if rrsig.ty == NSec3::TYPE {
                                                        // NSEC3 records should never appear on wildcards, so treat the
                                                        // whole proof as invalid
                                                        return Err(ValidationError::Invalid);
                                                }
                                                // If the RR used a wildcard, we need an NSEC/NSEC3 proof, which we
                                                // check for at the end. Note that the proof should be for the
                                                // "next closest" name, i.e. if the name here is a.b.c and it was
                                                // signed as *.c, we want a proof for nothing being in b.c.
                                                // Alternatively, if it was signed as *.b.c, we'd want a proof for
                                                // a.b.c.
                                                let proof_name = rrsig.name.trailing_n_labels(rrsig.labels + 1)
                                                        .ok_or(ValidationError::Invalid)?;
                                                rrs_needing_non_existence_proofs.push((proof_name, &rrsig.key_name, rrsig.ty));
                                        }
                                        for record in signed_records {
                                                if !res.contains(&record) { res.push(record); }
                                        }
                                },
                        }
                }
                continue 'next_zone;
        }
        if res.is_empty() { return Err(ValidationError::Invalid) }
        if latest_inception >= earliest_expiry { return Err(ValidationError::Invalid) }

        // First sort the proofs we're looking for so that the retains below avoid shifting.
        rrs_needing_non_existence_proofs.sort_unstable_by(nsec_ord_extra);
        'proof_search_loop: while let Some((name, zone, ty)) = rrs_needing_non_existence_proofs.pop() {
                let nsec_search = res.iter()
                        .filter_map(|rr| if let RR::NSec(nsec) = rr { Some(nsec) } else { None })
                        .filter(|nsec| nsec.name.ends_with(zone.as_str()));
                for nsec in nsec_search {
                        let name_matches = nsec.name.as_str() == name;
                        let name_contained = nsec_ord(&nsec.name,  name) != Ordering::Greater &&
                                nsec_ord(&nsec.next_name, name) == Ordering::Greater;
                        if (name_matches && !nsec.types.contains_type(ty)) || name_contained {
                                rrs_needing_non_existence_proofs
                                        .retain(|(n, _, t)| *n != name || (name_matches && nsec.types.contains_type(*t)));
                                continue 'proof_search_loop;
                        }
                }
                let nsec3_search = res.iter()
                        .filter_map(|rr| if let RR::NSec3(nsec3) = rr { Some(nsec3) } else { None })
                        .filter(|nsec3| nsec3.name.ends_with(zone.as_str()));

                // Because we will only ever have two entries, a Vec is simpler than a map here.
                let mut nsec3params_to_name_hash = Vec::new();
                for nsec3 in nsec3_search.clone() {
                        if nsec3.hash_iterations > 2500 {
                                // RFC 5115 places different limits on the iterations based on the signature key
                                // length, but we just use 2500 for all key types
                                continue;
                        }
                        if nsec3.hash_algo != 1 { continue; }
                        if nsec3params_to_name_hash.iter()
                                .any(|(iterations, salt, _)| *iterations == nsec3.hash_iterations && *salt == &nsec3.salt)
                        { continue; }

                        let mut hasher = crypto::hash::Hasher::sha1();
                        write_name(&mut hasher, name);
                        hasher.update(&nsec3.salt);
                        for _ in 0..nsec3.hash_iterations {
                                let res = hasher.finish();
                                hasher = crypto::hash::Hasher::sha1();
                                hasher.update(res.as_ref());
                                hasher.update(&nsec3.salt);
                        }
                        nsec3params_to_name_hash.push((nsec3.hash_iterations, &nsec3.salt, hasher.finish()));

                        if nsec3params_to_name_hash.len() >= 2 {
                                // We only allow for up to two sets of hash_iterations/salt per zone. Beyond that
                                // we assume this is a malicious DoSing proof and give up.
                                break;
                        }
                }
                for nsec3 in nsec3_search {
                        if nsec3.flags != 0 {
                                // This is an opt-out NSEC3 (or has unknown flags set). Thus, we shouldn't rely on
                                // it as proof that some record doesn't exist.
                                continue;
                        }
                        if nsec3.hash_algo != 1 { continue; }
                        let name_hash = if let Some((_, _, hash)) =
                                nsec3params_to_name_hash.iter()
                                .find(|(iterations, salt, _)| *iterations == nsec3.hash_iterations && *salt == &nsec3.salt)
                        {
                                hash
                        } else { continue };

                        let (start_hash_base32, _) = nsec3.name.split_once('.')
                                .unwrap_or_else(|| { debug_assert!(false); ("", "")});
                        let start_hash = if let Ok(start_hash) = base32::decode(start_hash_base32) {
                                start_hash
                        } else { continue };
                        if start_hash.len() != 20 || nsec3.next_name_hash.len() != 20 { continue; }

                        let hash_matches = &start_hash[..] == name_hash.as_ref();
                        let hash_contained =
                                &start_hash[..] <= name_hash.as_ref() && &nsec3.next_name_hash[..] > name_hash.as_ref();
                        if (hash_matches && !nsec3.types.contains_type(ty)) || hash_contained {
                                rrs_needing_non_existence_proofs
                                        .retain(|(n, _, t)| *n != name || (hash_matches && nsec3.types.contains_type(*t)));
                                continue 'proof_search_loop;
                        }
                }
                return Err(ValidationError::Invalid);
        }

        res.retain(|rr| rr.ty() != NSec::TYPE && rr.ty() != NSec3::TYPE);

        Ok(VerifiedRRStream {
                verified_rrs: res, valid_from: latest_inception, expires: earliest_expiry,
                max_cache_ttl: min_ttl,
        })
}

impl<'a> VerifiedRRStream<'a> {
        /// Given a name, resolve any [`CName`] records and return any verified records which were
        /// pointed to by the original name.
        ///
        /// Note that because of [`CName`]s, the [`RR::name`] in the returned records may or may not be
        /// equal to `name`.
        ///
        /// You MUST still check that the current UNIX time is between
        /// [`VerifiedRRStream::valid_from`] and [`VerifiedRRStream::expires`] before
        /// using any records returned here.
        pub fn resolve_name<'b>(&self, name_param: &'b Name) -> Vec<&'a RR> where 'a: 'b {
                let mut dname_name;
                let mut name = name_param;
                loop {
                        let mut cname_search = self.verified_rrs.iter()
                                .filter(|rr| rr.name() == name)
                                .filter_map(|rr| if let RR::CName(cn) = rr { Some(cn) } else { None });
                        if let Some(cname) = cname_search.next() {
                                name = &cname.canonical_name;
                                continue;
                        }

                        let mut dname_search = self.verified_rrs.iter()
                                .filter(|rr| name.ends_with(&**rr.name()))
                                .filter_map(|rr| if let RR::DName(dn) = rr { Some(dn) } else { None });
                        if let Some(dname) = dname_search.next() {
                                let prefix = name.strip_suffix(&*dname.name).expect("We just filtered for this");
                                let resolved_name = prefix.to_owned() + &dname.delegation_name;
                                dname_name = if let Ok(name) = resolved_name.try_into() {
                                        name
                                } else {
                                        // This should only happen if the combined name ended up being too long
                                        return Vec::new();
                                };
                                name = &dname_name;
                                continue;
                        }

                        return self.verified_rrs.iter().filter(|rr| rr.name() == name).copied().collect();
                }
        }
}

#[cfg(test)]
mod tests {
        #![allow(deprecated)]

        use super::*;

        use alloc::borrow::ToOwned;

        use crate::ser::{parse_rr_stream, write_rr};

        use hex_conservative::FromHex;
        use rand::seq::SliceRandom;

        fn root_dnskey() -> (Vec<DnsKey>, Vec<RR>) {
                let dnskeys = vec![DnsKey {
                        name: ".".try_into().unwrap(), flags: 256, protocol: 3, alg: 8,
                        pubkey: base64::decode("AwEAAentCcIEndLh2QSK+pHFq/PkKCwioxt75d7qNOUuTPMo0Fcte/NbwDPbocvbZ/eNb5RV/xQdapaJASQ/oDLsqzD0H1+JkHNuuKc2JLtpMxg4glSE4CnRXT2CnFTW5IwOREL+zeqZHy68OXy5ngW5KALbevRYRg/q2qFezRtCSQ0knmyPwgFsghVYLKwi116oxwEU5yZ6W7npWMxt5Z+Qs8diPNWrS5aXLgJtrWUGIIuFfuZwXYziGRP/z3o1EfMo9zZU19KLopkoLXX7Ls/diCXdSEdJXTtFA8w0/OKQviuJebfKscoElCTswukVZ1VX5gbaFEo2xWhHJ9Uo63wYaTk=").unwrap(),
                }, DnsKey {
                        name: ".".try_into().unwrap(), flags: 257, protocol: 3, alg: 8,
                        pubkey: base64::decode("AwEAAaz/tAm8yTn4Mfeh5eyI96WSVexTBAvkMgJzkKTOiW1vkIbzxeF3+/4RgWOq7HrxRixHlFlExOLAJr5emLvN7SWXgnLh4+B5xQlNVz8Og8kvArMtNROxVQuCaSnIDdD5LKyWbRd2n9WGe2R8PzgCmr3EgVLrjyBxWezF0jLHwVN8efS3rCj/EWgvIWgb9tarpVUDK/b58Da+sqqls3eNbuv7pr+eoZG+SrDK6nWeL3c6H5Apxz7LjVc1uTIdsIXxuOLYA4/ilBmSVIzuDWfdRUfhHdY6+cn8HFRm+2hM8AnXGXws9555KrUB5qihylGa8subX2Nn6UwNR1AkUTV74bU=").unwrap(),
                }];
                let dnskey_rrsig = RRSig {
                        name: ".".try_into().unwrap(), ty: DnsKey::TYPE, alg: 8, labels: 0, orig_ttl: 172800,
                        expiration: 1710201600, inception: 1708387200, key_tag: 20326, key_name: ".".try_into().unwrap(),
                        signature: base64::decode("GIgwndRLXgt7GX/JNEqSvpYw5ij6EgeQivdC/hmNNuOd2MCQRSxZx2DdLZUoK0tmn2XmOd0vYP06DgkIMUpIXcBstw/Um55WQhvBkBTPIhuB3UvKYJstmq+8hFHWVJwKHTg9xu38JA43VgCV2AbzurbzNOLSgq+rDPelRXzpLr5aYE3y+EuvL+I5gusm4MMajnp5S+ioWOL+yWOnQE6XKoDmlrfcTrYfRSxRtJewPmGeCbNdwEUBOoLUVdkCjQG4uFykcKL40cY8EOhVmM3kXAyuPuNe2Xz1QrIcVad/U4FDns+hd8+W+sWnr8QAtIUFT5pBjXooGS02m6eMdSeU6g==").unwrap(),
                };
                let root_hints = root_hints();
                verify_dnskeys([&dnskey_rrsig], &root_hints, dnskeys.iter().collect()).unwrap();
                let rrs = vec![dnskeys[0].clone().into(), dnskeys[1].clone().into(), dnskey_rrsig.into()];
                (dnskeys, rrs)
        }

        fn com_dnskey() -> (Vec<DnsKey>, Vec<RR>) {
                let root_dnskeys = root_dnskey().0;
                let mut com_ds = vec![DS {
                        name: "com.".try_into().unwrap(), key_tag: 19718, alg: 13, digest_type: 2,
                        digest: Vec::from_hex("8ACBB0CD28F41250A80A491389424D341522D946B0DA0C0291F2D3D771D7805A").unwrap(),
                }];
                let ds_rrsig = RRSig {
                        name: "com.".try_into().unwrap(), ty: DS::TYPE, alg: 8, labels: 1, orig_ttl: 86400,
                        expiration: 1710133200, inception: 1709006400, key_tag: 30903, key_name: ".".try_into().unwrap(),
                        signature: base64::decode("WEf7UPqoulxab83nVy/518TpZcC3og0paZ7Lag5iOqGdmGvZnB0yQ42s25iqB/mL6ZU+sSUwYoclcW36Tv/yHgS813T2wOgQ4Jh01aCsjkjvpgpbtnDTxg8bL30LV1obhQhOBFu5SqD4FOMeaV9Fqcff7Z72vC1UdVy0us2Kbhti3uQYrKQlGYcDMlgQAyOE0WEaLT74YfKFTpZvIK0UfUfdUAAiM0Z6PUi7BoyToIN+eKKPvny/+4BP9iVvAOmPMgr+kq/qIWOdsvUaq/S+k7VEPTJEi+i2gODgbMC+3EZZpZie9kv1EEAwGwBtGjE7bLlA1QUbuVeTgczIzrYriQ==").unwrap(),
                };
                verify_rrsig(&ds_rrsig, &root_dnskeys, com_ds.iter().collect()).unwrap();
                let dnskeys = vec![DnsKey {
                        name: "com.".try_into().unwrap(), flags: 256, protocol: 3, alg: 13,
                        pubkey: base64::decode("5i9qjJgyH+9MBz7VO269/srLQB/xRRllyUoVq8oLBZshPe4CGzDSFGnXAM3L/QPzB9ULpJuuy7jcxmBZ5Ebo7A==").unwrap(),
                }, DnsKey {
                        name: "com.".try_into().unwrap(), flags: 257, protocol: 3, alg: 13,
                        pubkey: base64::decode("tx8EZRAd2+K/DJRV0S+hbBzaRPS/G6JVNBitHzqpsGlz8huE61Ms9ANe6NSDLKJtiTBqfTJWDAywEp1FCsEINQ==").unwrap(),
                }];
                let dnskey_rrsig = RRSig {
                        name: "com.".try_into().unwrap(), ty: DnsKey::TYPE, alg: 13, labels: 1, orig_ttl: 86400,
                        expiration: 1710342155, inception: 1709045855, key_tag: 19718, key_name: "com.".try_into().unwrap(),
                        signature: base64::decode("lF2B9nXZn0CgytrHH6xB0NTva4G/aWvg/ypnSxJ8+ZXlvR0C4974yB+nd2ZWzWMICs/oPYMKoQHqxVjnGyu8nA==").unwrap(),
                };
                verify_dnskeys([&dnskey_rrsig], &com_ds, dnskeys.iter().collect()).unwrap();
                let rrs = vec![com_ds.pop().unwrap().into(), ds_rrsig.into(),
                        dnskeys[0].clone().into(), dnskeys[1].clone().into(), dnskey_rrsig.into()];
                (dnskeys, rrs)
        }

        fn ninja_dnskey() -> (Vec<DnsKey>, Vec<RR>) {
                let root_dnskeys = root_dnskey().0;
                let mut ninja_ds = vec![DS {
                        name: "ninja.".try_into().unwrap(), key_tag: 46082, alg: 8, digest_type: 2,
                        digest: Vec::from_hex("C8F816A7A575BDB2F997F682AAB2653BA2CB5EDDB69B036A30742A33BEFAF141").unwrap(),
                }];
                let ds_rrsig = RRSig {
                        name: "ninja.".try_into().unwrap(), ty: DS::TYPE, alg: 8, labels: 1, orig_ttl: 86400,
                        expiration: 1710133200, inception: 1709006400, key_tag: 30903, key_name: ".".try_into().unwrap(),
                        signature: base64::decode("4fLiekxJy1tHW3sMzmPA/i4Mn6TYoCHDKbcvk3t3N6IXMkACSgU+6P5NxSMxo5Xa7YL5UuE1ICDKxel5o5WzyvjaRQA//hZomjwnCzqyG2XoS6Va8cULSOA5jOU153NSCvos39iHeJnuPINzbMAfsKcg6Ib/IDmNnpouQF53hQzVy+5MGLlGPUZjSO6b4GIslyKpLG0tBLKXM5rZXREPJClEY+LWKOtAS1iARqdsWmSnKxZCpgnEjmkqJBtjCus+s6AtMteBHIFyebwA7oUDNtJ3Im1dO5b6sUoGP8gUgnqdFELSLEeEhKYKpO+jSruI8g/gjNIb5C9vDwAtcSoAew==").unwrap(),
                };
                verify_rrsig(&ds_rrsig, &root_dnskeys, ninja_ds.iter().collect()).unwrap();
                let dnskeys = vec![DnsKey {
                        name: "ninja.".try_into().unwrap(), flags: 256, protocol: 3, alg: 8,
                        pubkey: base64::decode("AwEAAb6FWe0O0qxUkA+LghF71OPWt0WNqBaCi34HCV6Agjz70RN/j7yGi3xCExM8MkzyrbXd5yYFP4X7TCGEzI5ofLNq7GVIj9laZO0WYS8DNdCMN7qkVVaYeR2UeeGsdvIJqRWzlynABAKnCzX+y5np77FBsle4cAIGxJE/0F5kn61F").unwrap(),
                }, DnsKey {
                        name: "ninja.".try_into().unwrap(), flags: 256, protocol: 3, alg: 8,
                        pubkey: base64::decode("AwEAAZlkeshgX2Q9i/X4zZMc2ciKO2a3+mOiOCuYHYbwt/43XXdcHdjtOUrWFFJkGBBWsHQZ/Bg0CeUGqvUGywd3ndY5IAX+e7PnuIUlhKDcNmntcQbxhrH+cpmOoB3Xo/96JoVjurPxTuJE23I1oA+0aESc581f4pKEbTp4WI7m5xNn").unwrap(),
                }, DnsKey {
                        name: "ninja.".try_into().unwrap(), flags: 257, protocol: 3, alg: 8,
                        pubkey: base64::decode("AwEAAcceTJ3Ekkmiez70L8uNVrTDrHZxXHrQHEHQ1DJZDRXDxizuSy0prDXy1yybMqcKAkPL0IruvJ9vHg5j2eHN/hM8RVqCQ1wHgLdQASyUL37VtmLuyNmuiFpYmT+njXVh/tzRHZ4cFxrLAtACWDe6YaPApnVkJ0FEcMnKCQaymBaLX02WQOYuG3XdBr5mQQTtMs/kR/oh83QBcSxyCg3KS7G8IPP6MQPK0za94gsW9zlI5rgN2gpSjbU2qViGjDhw7N3PsC37PLTSLirUmkufeMkP9sfhDjAbP7Nv6FmpTDAIRmBmV0HBT/YNBTUBP89DmEDsrYL8knjkrOaLqV5wgkk=").unwrap(),
                }];
                let dnskey_rrsig = RRSig {
                        name: "ninja.".try_into().unwrap(), ty: DnsKey::TYPE, alg: 8, labels: 1, orig_ttl: 3600,
                        expiration: 1710689605, inception: 1708871605, key_tag: 46082, key_name: "ninja.".try_into().unwrap(),
                        signature: base64::decode("kYxV1z+9Ikxqbr13N+8HFWWnAUcvHkr/dmkdf21mliUhH4cxeYCXC6a95X+YzjYQEQi3fU+S346QBDJkbFYCca5q/TzUdE7ej1B/0uTzhgNrQznm0O6sg6DI3HuqDfZp2oaBQm2C/H4vjkcUW9zxgKP8ON0KKLrZUuYelGazeGSOscjDDlmuNMD7tHhFrmK9BiiX+8sp8Cl+IE5ArP+CPXsII+P+R2QTmTqw5ovJch2FLRMRqCliEzTR/IswBI3FfegZR8h9xJ0gfyD2rDqf6lwJhD1K0aS5wxia+bgzpRIKwiGfP87GDYzkygHr83QbmZS2YG1nxlnQ2rgkqTGgXA==").unwrap(),
                };
                verify_dnskeys([&dnskey_rrsig], &ninja_ds, dnskeys.iter().collect()).unwrap();
                let rrs = vec![ninja_ds.pop().unwrap().into(), ds_rrsig.into(),
                        dnskeys[0].clone().into(), dnskeys[1].clone().into(), dnskeys[2].clone().into(),
                        dnskey_rrsig.into()];
                (dnskeys, rrs)
        }

        fn mattcorallo_dnskey() -> (Vec<DnsKey>, Vec<RR>) {
                let com_dnskeys = com_dnskey().0;
                let mut mattcorallo_ds = vec![DS {
                        name: "mattcorallo.com.".try_into().unwrap(), key_tag: 25630, alg: 13, digest_type: 2,
                        digest: Vec::from_hex("DC608CA62BE89B3B9DB1593F9A59930D24FBA79D486E19C88A7792711EC00735").unwrap(),
                }];
                let ds_rrsig = RRSig {
                        name: "mattcorallo.com.".try_into().unwrap(), ty: DS::TYPE, alg: 13, labels: 2, orig_ttl: 86400,
                        expiration: 1709359258, inception: 1708750258, key_tag: 4534, key_name: "com.".try_into().unwrap(),
                        signature: base64::decode("VqYztN78+g170QPeFOqWFkU1ZrKIsndUYj3Y+8x1ZR1v/YGJXLQe5qkcLWjrl/vMyCgknC3Q/dhcS2ag0a7W1w==").unwrap(),
                };
                verify_rrsig(&ds_rrsig, &com_dnskeys, mattcorallo_ds.iter().collect()).unwrap();
                let dnskeys = vec![DnsKey {
                        name: "mattcorallo.com.".try_into().unwrap(), flags: 257, protocol: 3, alg: 13,
                        pubkey: base64::decode("8BP51Etiu4V6cHvGCYqwNqCip4pvHChjEgkgG4zpdDvO9YRcTGuV/p71hAUut2/qEdxqXfUOT/082BJ/Z089DA==").unwrap(),
                }, DnsKey {
                        name: "mattcorallo.com.".try_into().unwrap(), flags: 256, protocol: 3, alg: 13,
                        pubkey: base64::decode("AhUlQ8qk7413R0m4zKfTDHb/FQRlKag+ncGXxNxT+qTzSZTb9E5IGjo9VCEp6+IMqqpkd4GrXpN9AzDvlcU9Ig==").unwrap(),
                }, DnsKey {
                        name: "mattcorallo.com.".try_into().unwrap(), flags: 256, protocol: 3, alg: 13,
                        pubkey: base64::decode("s165ZpubX31FC2CVeIVVvnPpTnJUoOM8CGt3wk4AtxPftYadgI8uFM43F4QaD67v8B8Vshl63frxN50dc44VHQ==").unwrap(),
                }];
                let dnskey_rrsig = RRSig {
                        name: "mattcorallo.com.".try_into().unwrap(), ty: DnsKey::TYPE, alg: 13, labels: 2, orig_ttl: 604800,
                        expiration:1710262250, inception: 1709047250, key_tag: 25630, key_name: "mattcorallo.com.".try_into().unwrap(),
                        signature: base64::decode("dMLDvNU96m+tfgpDIQPxMBJy7T0xyZDj3Wws4b4E6+g3nt5iULdWJ8Eqrj+86KLerOVt7KH4h/YcHP18hHdMGA==").unwrap(),
                };
                verify_dnskeys([&dnskey_rrsig], &mattcorallo_ds, dnskeys.iter().collect()).unwrap();
                let rrs = vec![mattcorallo_ds.pop().unwrap().into(), ds_rrsig.into(),
                        dnskeys[0].clone().into(), dnskeys[1].clone().into(), dnskeys[2].clone().into(),
                        dnskey_rrsig.into()];
                (dnskeys, rrs)
        }

        fn mattcorallo_txt_record() -> (Txt, RRSig) {
                let txt_resp = Txt {
                        name: "matt.user._bitcoin-payment.mattcorallo.com.".try_into().unwrap(),
                        data: "bitcoin:?b12=lno1qsgqmqvgm96frzdg8m0gc6nzeqffvzsqzrxqy32afmr3jn9ggkwg3egfwch2hy0l6jut6vfd8vpsc3h89l6u3dm4q2d6nuamav3w27xvdmv3lpgklhg7l5teypqz9l53hj7zvuaenh34xqsz2sa967yzqkylfu9xtcd5ymcmfp32h083e805y7jfd236w9afhavqqvl8uyma7x77yun4ehe9pnhu2gekjguexmxpqjcr2j822xr7q34p078gzslf9wpwz5y57alxu99s0z2ql0kfqvwhzycqq45ehh58xnfpuek80hw6spvwrvttjrrq9pphh0dpydh06qqspp5uq4gpyt6n9mwexde44qv7lstzzq60nr40ff38u27un6y53aypmx0p4qruk2tf9mjwqlhxak4znvna5y".to_owned().into_bytes(),
                };
                let txt_rrsig = RRSig {
                        name: "matt.user._bitcoin-payment.mattcorallo.com.".try_into().unwrap(),
                        ty: Txt::TYPE, alg: 13, labels: 5, orig_ttl: 3600, expiration: 1710182540,
                        inception: 1708967540, key_tag: 47959, key_name: "mattcorallo.com.".try_into().unwrap(),
                        signature: base64::decode("vwI89CkCzWI2Iwgl3UeiSo4GKSaKCh7/E/7nE8Hbb1WQvdpwdKSB6jE4nwM1BN4wdPhi7kxd7hyS/uGiKZjxsg==").unwrap(),
                };
                (txt_resp, txt_rrsig)
        }

        fn bitcoin_ninja_dnskey() -> (Vec<DnsKey>, Vec<RR>) {
                let ninja_dnskeys = ninja_dnskey().0;
                let mut bitcoin_ninja_ds = vec![DS {
                        name: "bitcoin.ninja.".try_into().unwrap(), key_tag: 63175, alg: 13, digest_type: 2,
                        digest: Vec::from_hex("D554267D7F730B9602BF4436F46BB967EFE3C4202CA7F082F2D5DD24DF4EBDED").unwrap(),
                }];
                let ds_rrsig = RRSig {
                        name: "bitcoin.ninja.".try_into().unwrap(), ty: DS::TYPE, alg: 8, labels: 2, orig_ttl: 3600,
                        expiration: 1710689605, inception: 1708871605, key_tag: 34164, key_name: "ninja.".try_into().unwrap(),
                        signature: base64::decode("g/Xyv6cwrGlpEyhXDV1vdKpoy9ZH7HF6MK/41q0GyCrd9wL8BrzKQgwvLqOBhvfUWACJd66CJpEMZnSwH8ZDEcWYYsd8nY2giGX7In/zGz+PA35HlFqy2BgvQcWCaN5Ht/+BUTgZXHbJBEko1iWLZ1yhciD/wA+XTqS7ScQUu88=").unwrap(),
                };
                verify_rrsig(&ds_rrsig, &ninja_dnskeys, bitcoin_ninja_ds.iter().collect()).unwrap();
                let dnskeys = vec![DnsKey {
                        name: "bitcoin.ninja.".try_into().unwrap(), flags: 257, protocol: 3, alg: 13,
                        pubkey: base64::decode("0lIZI5BH7kk75R/+1RMReQE0J2iQw0lY2aQ6eCM7F1E9ZMNcIGC1cDl5+FcAU1mP8F3Ws2FjgvCC0S2q8OBF2Q==").unwrap(),
                }, DnsKey {
                        name: "bitcoin.ninja.".try_into().unwrap(), flags: 256, protocol: 3, alg: 13,
                        pubkey: base64::decode("zbm2rKgzXDtRFV0wFmnlUMdOXWcNKEjGIHsZ7bAnTzbh7TJEzPctSttCaTvdaORxLL4AiOk+VG2iXnL2UuC/xQ==").unwrap(),
                }];
                let dnskey_rrsig = RRSig {
                        name: "bitcoin.ninja.".try_into().unwrap(), ty: DnsKey::TYPE, alg: 13, labels: 2, orig_ttl: 604800,
                        expiration: 1709947337, inception: 1708732337, key_tag: 63175, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("Y3To5FZoZuBDUMtIBZXqzRtufyRqOlDqbHVcoZQitXxerCgNQ1CsVdmoFVMmZqRV5n4itINX2x+9G/31j410og==").unwrap(),
                };
                verify_dnskeys([&dnskey_rrsig], &bitcoin_ninja_ds, dnskeys.iter().collect()).unwrap();
                let rrs = vec![bitcoin_ninja_ds.pop().unwrap().into(), ds_rrsig.into(),
                        dnskeys[0].clone().into(), dnskeys[1].clone().into(), dnskey_rrsig.into()];
                (dnskeys, rrs)
        }

        fn bitcoin_ninja_txt_record() -> (Txt, RRSig) {
                let txt_resp = Txt {
                        name: "txt_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "dnssec_prover_test".to_owned().into_bytes(),
                };
                let txt_rrsig = RRSig {
                        name: "txt_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: Txt::TYPE, alg: 13, labels: 4, orig_ttl: 30, expiration: 1709950937,
                        inception: 1708735937, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("S5swe6BMTqwLBU6FH2D50j5A9i5hzli79Vlf5xB515s6YhmcqodbPZnFlN49RdBE43PKi9MJcXpHTiBxvTYBeQ==").unwrap(),
                };
                (txt_resp, txt_rrsig)
        }

        fn bitcoin_ninja_cname_record() -> (CName, RRSig) {
                let cname_resp = CName {
                        name: "cname_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        canonical_name: "txt_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                };
                let cname_rrsig = RRSig {
                        name: "cname_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: CName::TYPE, alg: 13, labels: 4, orig_ttl: 30, expiration: 1709950937,
                        inception: 1708735937, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("S8AYftjBADKutt4XKVzqfY7EpvbanpwOGhMDk0lEDFpvNRjl0fZ1k/FEW6AXSUyX2wOaX8hvwXUuZjpr5INuMw==").unwrap(),
                };
                (cname_resp, cname_rrsig)
        }

        fn bitcoin_ninja_txt_sort_edge_cases_records() -> (Vec<Txt>, RRSig) {
                let txts = vec![Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaab".to_owned().into_bytes(),
                }, Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa".to_owned().into_bytes(),
                }, Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaabaa".to_owned().into_bytes(),
                }, Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaba".to_owned().into_bytes(),
                }, Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa".to_owned().into_bytes(),
                }, Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaab".to_owned().into_bytes(),
                }, Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa".to_owned().into_bytes(),
                }, Txt {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaba".to_owned().into_bytes(),
                }];
                let rrsig = RRSig {
                        name: "txt_sort_order.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: Txt::TYPE, alg: 13, labels: 4, orig_ttl: 30, expiration: 1709950937,
                        inception: 1708735937, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("kUKbtoNYM6qnu95QJoyUwtzZoMTcRVfNfIIqSwROLdMYqqq70REjCu99ecjOW/Zm2XRsJ9KgGBB/SuiBdunLew==").unwrap(),
                };
                (txts, rrsig)
        }

        /// Note that the NSEC3 proofs here are for asdf., any other prefix may fail NSEC checks.
        fn bitcoin_ninja_wildcard_record(pfx: &str) -> (Txt, RRSig, NSec3, RRSig) {
                let name: Name = (pfx.to_owned() + ".wildcard_test.dnssec_proof_tests.bitcoin.ninja.").try_into().unwrap();
                let txt_resp = Txt {
                        name: name.clone(),
                        data: "wildcard_test".to_owned().into_bytes(),
                };
                let txt_rrsig = RRSig {
                        name: name.clone(),
                        ty: Txt::TYPE, alg: 13, labels: 4, orig_ttl: 30, expiration: 1709950937,
                        inception: 1708735937, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("Y+grWXzbZfrcoHRZC9kfRzWp002jZzBDmpSQx6qbUgN0x3aH9kZIOVy0CtQH2vwmLUxoJ+RlezgunNI6LciBzQ==").unwrap(),
                };
                let nsec3 = NSec3 {
                        name: "s5sn15c8lcpo7v7f1p0ms6vlbdejt0kd.bitcoin.ninja.".try_into().unwrap(),
                        hash_algo: 1, flags: 0, hash_iterations: 0, salt: Vec::from_hex("059855BD1077A2EB").unwrap(),
                        next_name_hash: crate::base32::decode("T8QO5GO6M76HBR5Q6T3G6BDR79KBMDSA").unwrap(),
                        types: NSecTypeMask::from_types(&[AAAA::TYPE, RRSig::TYPE]),
                };
                let nsec3_rrsig = RRSig {
                        name: "s5sn15c8lcpo7v7f1p0ms6vlbdejt0kd.bitcoin.ninja.".try_into().unwrap(),
                        ty: NSec3::TYPE, alg: 13, labels: 3, orig_ttl: 60, expiration: 1710267741,
                        inception: 1709052741, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("Aiz6My3goWQuIIw/XNUo+kICsp9e4C5XUUs/0Ap+WIEFJsaN/MPGegiR/c5GUGdtHt1GdeP9CU3H1OGkN9MpWQ==").unwrap(),
                };
                (txt_resp, txt_rrsig, nsec3, nsec3_rrsig)
        }

        fn bitcoin_ninja_cname_wildcard_record() -> (CName, RRSig, Txt, RRSig, [(NSec3, RRSig); 3]) {
                let cname_resp = CName {
                        name: "asdf.cname_wildcard_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        canonical_name: "cname.wildcard_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                };
                let cname_rrsig = RRSig {
                        name: "asdf.cname_wildcard_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: CName::TYPE, alg: 13, labels: 4, orig_ttl: 30, expiration: 1709950937,
                        inception: 1708735937, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("qR/zy8JyihI4qCAMwn7jGU6FARW/Hl8/u+cajef9raKs5aOxnZpCrp19Tot9qPG6px9PzqaghAIP1EmxfgxtRQ==").unwrap(),
                };
                let nsec3_a = NSec3 {
                        name: "2tn37cu4ulmlqqke9a3dc9g8bt8b4f6s.bitcoin.ninja.".try_into().unwrap(),
                        hash_algo: 1, flags: 0, hash_iterations: 0,
                        salt: Vec::from_hex("059855BD1077A2EB").unwrap(),
                        next_name_hash: crate::base32::decode("4OKFHSHS41D00EDL0HNPMT7R6IKMJ48H").unwrap(),
                        types: NSecTypeMask::from_types(&[DName::TYPE, RRSig::TYPE]),
                };
                let nsec3_a_rrsig = RRSig {
                        name: "2tn37cu4ulmlqqke9a3dc9g8bt8b4f6s.bitcoin.ninja.".try_into().unwrap(),
                        ty: NSec3::TYPE, alg: 13, labels: 3, orig_ttl: 60, expiration: 1710266541,
                        inception: 1709051541, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("tSsPsYIf1o5+piUZX9YwcWKSZgVQOB37TRdb+VL0PmcPaLpzFGJCwU0snn8tMN/BuILG+KZY+UPmAEZZFz4Fvg==").unwrap(),
                };
                let nsec3_b = NSec3 {
                        name: "cjqf7lfu6ev77k9m2o6iih56kbfnshin.bitcoin.ninja.".try_into().unwrap(),
                        hash_algo: 1, flags: 0, hash_iterations: 0,
                        salt: Vec::from_hex("059855BD1077A2EB").unwrap(),
                        next_name_hash: crate::base32::decode("DD3MT23L63OIHQPIMA5O2NULSVIGIJ3N").unwrap(),
                        types: NSecTypeMask::from_types(&[A::TYPE, AAAA::TYPE, RRSig::TYPE]),
                };
                let nsec3_b_rrsig = RRSig {
                        name: "cjqf7lfu6ev77k9m2o6iih56kbfnshin.bitcoin.ninja.".try_into().unwrap(),
                        ty: NSec3::TYPE, alg: 13, labels: 3, orig_ttl: 60, expiration: 1710238940,
                        inception: 1709023940, key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("CtYriOUI6RzoIG3SigHbBYiTkrEvmSEvP+aOLo1wylqkbBT2iG7pK8VNucKETqMZCROLnmRBw8DHK/8rosKYsA==").unwrap(),
                };
                let (txt_resp, txt_rrsig, nsec3_c, nsec3_c_rrsig) = bitcoin_ninja_wildcard_record("asdf");
                (cname_resp, cname_rrsig, txt_resp, txt_rrsig,
                        [(nsec3_a, nsec3_a_rrsig), (nsec3_b, nsec3_b_rrsig), (nsec3_c, nsec3_c_rrsig)])
        }

        fn bitcoin_ninja_nsec_dnskey() -> (Vec<DnsKey>, Vec<RR>) {
                let bitcoin_ninja_dnskeys = bitcoin_ninja_dnskey().0;
                let mut bitcoin_ninja_ds = vec![DS {
                        name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        key_tag: 8036, alg: 13, digest_type: 2,
                        digest: Vec::from_hex("8EC0DAE4501233979196EBED206212BCCC49E40E086EC2E56558EC1F6FB62715").unwrap(),
                }];
                let ds_rrsig = RRSig {
                        name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: DS::TYPE, alg: 13, labels: 4, orig_ttl: 30, expiration: 1710190967, inception: 1708975967,
                        key_tag: 37639, key_name: "bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("qUexI1yufru0lzkND4uY1r8bsXrXnMVNjPxTLbLauRo/+YW041w9wFu4sl2/cqq3psWvGcBVTltwIdjDJQUcZQ==").unwrap(),
                };
                verify_rrsig(&ds_rrsig, &bitcoin_ninja_dnskeys, bitcoin_ninja_ds.iter().collect()).unwrap();
                let dnskeys = vec![DnsKey {
                        name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(), flags: 257, protocol: 3, alg: 13,
                        pubkey: base64::decode("MUnIhm31ySIr9WXIBVQc38wlSHHvYaKIOFR8WYl4O9MJBlywWeUdx16oGinCe2FjjMkUkKn9kV5zzWhGmrdIbQ==").unwrap(),
                }, DnsKey {
                        name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(), flags: 256, protocol: 3, alg: 13,
                        pubkey: base64::decode("GGZP8k44sro2iTzWKFoHOnbvrAhNiQv+Ng2hr0WNyb24aA5rLYLFac3N7B82xRU2odd60utYJkmU0yA//zyOzw==").unwrap(),
                }];
                let dnskey_rrsig = RRSig {
                        name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: DnsKey::TYPE, alg: 13, labels: 4, orig_ttl: 604800, expiration: 1710190613, inception: 1708975613,
                        key_tag: 8036, key_name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("nX+hkH14Kvjp26Z8x/pjYh5CQW3p9lZQQ+FVJcKHyfjAilEubpw6ihlPpb3Ddh9BbyxhCEFhXDMG2g4od9Y2ow==").unwrap(),
                };
                verify_dnskeys([&dnskey_rrsig], &bitcoin_ninja_ds, dnskeys.iter().collect()).unwrap();
                let rrs = vec![bitcoin_ninja_ds.pop().unwrap().into(), ds_rrsig.into(),
                        dnskeys[0].clone().into(), dnskeys[1].clone().into(), dnskey_rrsig.into()];
                (dnskeys, rrs)
        }

        fn bitcoin_ninja_nsec_record() -> (Txt, RRSig) {
                let txt_resp = Txt {
                        name: "a.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        data: "txt_a".to_owned().into_bytes(),
                };
                let txt_rrsig = RRSig {
                        name: "a.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: Txt::TYPE, alg: 13, labels: 5, orig_ttl: 30, expiration: 1710201091, inception: 1708986091,
                        key_tag: 42215, key_name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("rhDcZvSk4ngyDmMif3oBmoDMO1YoimRrvOp/ErlSaujN+OCMKocgWkssedQCx7hyLxwsFLvaaiNXCr/7ZaSe4Q==").unwrap(),
                };
                (txt_resp, txt_rrsig)
        }

        fn bitcoin_ninja_nsec_wildcard_record(pfx: &str) -> (Txt, RRSig, NSec, RRSig) {
                let name: Name = (pfx.to_owned() + ".wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.").try_into().unwrap();
                let txt_resp = Txt {
                        name: name.clone(),
                        data: "wildcard_test".to_owned().into_bytes(),
                };
                let txt_rrsig = RRSig {
                        name: name.clone(),
                        ty: Txt::TYPE, alg: 13, labels: 5, orig_ttl: 30, expiration: 1710190613, inception: 1708975613,
                        key_tag: 42215, key_name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("E3+tEe5TxI8OSNP+LVHsOagjQ/9heD6a4ICYBgS8mkfRuqgFeXhz22n4f2LzssdXe1xzwayt7nROdHdqdfHDYg==").unwrap(),
                };
                let nsec = NSec {
                        name: "*.wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        next_name: "override.wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        types: NSecTypeMask::from_types(&[Txt::TYPE, RRSig::TYPE, NSec::TYPE]),
                };
                let nsec_rrsig = RRSig {
                        name: "*.wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: NSec::TYPE, alg: 13, labels: 5, orig_ttl: 60, expiration: 1710191561, inception: 1708976561,
                        key_tag: 42215, key_name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("ZjQMw1dt1a61d4ls3pMkCnBiWRaMyAwn6UapRaYNtdA8cTbbqbhzJZCvc6ZBhZ90CzxCYR0h/eavowlF1j53Gg==").unwrap(),
                };
                (txt_resp, txt_rrsig, nsec, nsec_rrsig)
        }

        fn bitcoin_ninja_nsec_post_override_wildcard_record(pfx: &str) -> (Txt, RRSig, NSec, RRSig) {
                let name: Name = (pfx.to_owned() + ".wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.").try_into().unwrap();
                let txt_resp = Txt {
                        name: name.clone(),
                        data: "wildcard_test".to_owned().into_bytes(),
                };
                let txt_rrsig = RRSig {
                        name: name.clone(),
                        ty: Txt::TYPE, alg: 13, labels: 5, orig_ttl: 30, expiration: 1710190613, inception: 1708975613,
                        key_tag: 42215, key_name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("E3+tEe5TxI8OSNP+LVHsOagjQ/9heD6a4ICYBgS8mkfRuqgFeXhz22n4f2LzssdXe1xzwayt7nROdHdqdfHDYg==").unwrap(),
                };
                let nsec = NSec {
                        name: "override.wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        next_name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        types: NSecTypeMask::from_types(&[Txt::TYPE, RRSig::TYPE, NSec::TYPE]),
                };
                let nsec_rrsig = RRSig {
                        name: "override.wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        ty: NSec::TYPE, alg: 13, labels: 6, orig_ttl: 60, expiration: 1710201063, inception: 1708986063,
                        key_tag: 42215, key_name: "nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap(),
                        signature: base64::decode("pBNXnNPR0fiGEtkm/0PlnDW830JWv8KgnyhnOit6wLHtiWoLhMiS48utji3FbTfelCnePjbLh/t7SF941O2QTA==").unwrap(),
                };
                (txt_resp, txt_rrsig, nsec, nsec_rrsig)
        }

        #[test]
        fn check_txt_record_a() {
                let dnskeys = mattcorallo_dnskey().0;
                let (txt, txt_rrsig) = mattcorallo_txt_record();
                let txt_resp = [txt];
                verify_rrsig(&txt_rrsig, &dnskeys, txt_resp.iter().collect()).unwrap();
        }

        #[test]
        fn check_single_txt_proof() {
                let mut rr_stream = Vec::new();
                for rr in root_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in com_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in mattcorallo_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                let (txt, txt_rrsig) = mattcorallo_txt_record();
                for rr in [RR::Txt(txt), RR::RRSig(txt_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }

                let mut rrs = parse_rr_stream(&rr_stream).unwrap();
                rrs.shuffle(&mut rand::rngs::OsRng);
                let verified_rrs = verify_rr_stream(&rrs).unwrap();
                assert_eq!(verified_rrs.verified_rrs.len(), 1);
                if let RR::Txt(txt) = &verified_rrs.verified_rrs[0] {
                        assert_eq!(txt.name.as_str(), "matt.user._bitcoin-payment.mattcorallo.com.");
                        assert_eq!(txt.data, b"bitcoin:?b12=lno1qsgqmqvgm96frzdg8m0gc6nzeqffvzsqzrxqy32afmr3jn9ggkwg3egfwch2hy0l6jut6vfd8vpsc3h89l6u3dm4q2d6nuamav3w27xvdmv3lpgklhg7l5teypqz9l53hj7zvuaenh34xqsz2sa967yzqkylfu9xtcd5ymcmfp32h083e805y7jfd236w9afhavqqvl8uyma7x77yun4ehe9pnhu2gekjguexmxpqjcr2j822xr7q34p078gzslf9wpwz5y57alxu99s0z2ql0kfqvwhzycqq45ehh58xnfpuek80hw6spvwrvttjrrq9pphh0dpydh06qqspp5uq4gpyt6n9mwexde44qv7lstzzq60nr40ff38u27un6y53aypmx0p4qruk2tf9mjwqlhxak4znvna5y");
                } else { panic!(); }
                assert_eq!(verified_rrs.valid_from, 1709047250); // The mattcorallo.com. DNSKEY RRSig was created last
                assert_eq!(verified_rrs.expires, 1709359258); // The mattcorallo.com. DS RRSig expires first
                assert_eq!(verified_rrs.max_cache_ttl, 3600); // The TXT record had the shortest TTL
        }

        #[test]
        fn check_txt_record_b() {
                let dnskeys = bitcoin_ninja_dnskey().0;
                let (txt, txt_rrsig) = bitcoin_ninja_txt_record();
                let txt_resp = [txt];
                verify_rrsig(&txt_rrsig, &dnskeys, txt_resp.iter().collect()).unwrap();
        }

        #[test]
        fn check_cname_record() {
                let dnskeys = bitcoin_ninja_dnskey().0;
                let (cname, cname_rrsig) = bitcoin_ninja_cname_record();
                let cname_resp = [cname];
                verify_rrsig(&cname_rrsig, &dnskeys, cname_resp.iter().collect()).unwrap();
        }

        #[test]
        fn check_multi_zone_proof() {
                let mut rr_stream = Vec::new();
                for rr in root_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in com_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in mattcorallo_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                let (txt, txt_rrsig) = mattcorallo_txt_record();
                for rr in [RR::Txt(txt), RR::RRSig(txt_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }
                for rr in bitcoin_ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                let (txt, txt_rrsig) = bitcoin_ninja_txt_record();
                for rr in [RR::Txt(txt), RR::RRSig(txt_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }
                let (cname, cname_rrsig) = bitcoin_ninja_cname_record();
                for rr in [RR::CName(cname), RR::RRSig(cname_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }

                let mut rrs = parse_rr_stream(&rr_stream).unwrap();
                rrs.shuffle(&mut rand::rngs::OsRng);
                let mut verified_rrs = verify_rr_stream(&rrs).unwrap();
                verified_rrs.verified_rrs.sort();
                assert_eq!(verified_rrs.verified_rrs.len(), 3);
                if let RR::Txt(txt) = &verified_rrs.verified_rrs[0] {
                        assert_eq!(txt.name.as_str(), "matt.user._bitcoin-payment.mattcorallo.com.");
                        assert_eq!(txt.data, b"bitcoin:?b12=lno1qsgqmqvgm96frzdg8m0gc6nzeqffvzsqzrxqy32afmr3jn9ggkwg3egfwch2hy0l6jut6vfd8vpsc3h89l6u3dm4q2d6nuamav3w27xvdmv3lpgklhg7l5teypqz9l53hj7zvuaenh34xqsz2sa967yzqkylfu9xtcd5ymcmfp32h083e805y7jfd236w9afhavqqvl8uyma7x77yun4ehe9pnhu2gekjguexmxpqjcr2j822xr7q34p078gzslf9wpwz5y57alxu99s0z2ql0kfqvwhzycqq45ehh58xnfpuek80hw6spvwrvttjrrq9pphh0dpydh06qqspp5uq4gpyt6n9mwexde44qv7lstzzq60nr40ff38u27un6y53aypmx0p4qruk2tf9mjwqlhxak4znvna5y");
                } else { panic!(); }
                if let RR::Txt(txt) = &verified_rrs.verified_rrs[1] {
                        assert_eq!(txt.name.as_str(), "txt_test.dnssec_proof_tests.bitcoin.ninja.");
                        assert_eq!(txt.data, b"dnssec_prover_test");
                } else { panic!(); }
                if let RR::CName(cname) = &verified_rrs.verified_rrs[2] {
                        assert_eq!(cname.name.as_str(), "cname_test.dnssec_proof_tests.bitcoin.ninja.");
                        assert_eq!(cname.canonical_name.as_str(), "txt_test.dnssec_proof_tests.bitcoin.ninja.");
                } else { panic!(); }

                let filtered_rrs =
                        verified_rrs.resolve_name(&"cname_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap());
                assert_eq!(filtered_rrs.len(), 1);
                if let RR::Txt(txt) = &filtered_rrs[0] {
                        assert_eq!(txt.name.as_str(), "txt_test.dnssec_proof_tests.bitcoin.ninja.");
                        assert_eq!(txt.data, b"dnssec_prover_test");
                } else { panic!(); }
        }

        #[test]
        fn check_wildcard_record() {
                // Wildcard proof works for any name, even multiple names
                let dnskeys = bitcoin_ninja_dnskey().0;
                let (txt, txt_rrsig, _, _) = bitcoin_ninja_wildcard_record("name");
                let txt_resp = [txt];
                verify_rrsig(&txt_rrsig, &dnskeys, txt_resp.iter().collect()).unwrap();

                let (txt, txt_rrsig, _, _) = bitcoin_ninja_wildcard_record("anoter_name");
                let txt_resp = [txt];
                verify_rrsig(&txt_rrsig, &dnskeys, txt_resp.iter().collect()).unwrap();

                let (txt, txt_rrsig, _, _) = bitcoin_ninja_wildcard_record("multiple.names");
                let txt_resp = [txt];
                verify_rrsig(&txt_rrsig, &dnskeys, txt_resp.iter().collect()).unwrap();
        }

        #[test]
        fn check_wildcard_proof() {
                let mut rr_stream = Vec::new();
                for rr in root_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in bitcoin_ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                let (cname, cname_rrsig, txt, txt_rrsig, nsec3s) = bitcoin_ninja_cname_wildcard_record();
                for rr in [RR::CName(cname), RR::RRSig(cname_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }
                for rr in [RR::Txt(txt), RR::RRSig(txt_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }
                for (rra, rrb) in nsec3s { write_rr(&rra, 1, &mut rr_stream); write_rr(&rrb, 1, &mut rr_stream); }

                let mut rrs = parse_rr_stream(&rr_stream).unwrap();
                rrs.shuffle(&mut rand::rngs::OsRng);
                let mut verified_rrs = verify_rr_stream(&rrs).unwrap();
                verified_rrs.verified_rrs.sort();
                assert_eq!(verified_rrs.verified_rrs.len(), 2);
                if let RR::Txt(txt) = &verified_rrs.verified_rrs[0] {
                        assert_eq!(txt.name.as_str(), "asdf.wildcard_test.dnssec_proof_tests.bitcoin.ninja.");
                        assert_eq!(txt.data, b"wildcard_test");
                } else { panic!(); }
                if let RR::CName(cname) = &verified_rrs.verified_rrs[1] {
                        assert_eq!(cname.name.as_str(), "asdf.cname_wildcard_test.dnssec_proof_tests.bitcoin.ninja.");
                        assert_eq!(cname.canonical_name.as_str(), "cname.wildcard_test.dnssec_proof_tests.bitcoin.ninja.");
                } else { panic!(); }

                let filtered_rrs =
                        verified_rrs.resolve_name(&"asdf.wildcard_test.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap());
                assert_eq!(filtered_rrs.len(), 1);
                if let RR::Txt(txt) = &filtered_rrs[0] {
                        assert_eq!(txt.name.as_str(), "asdf.wildcard_test.dnssec_proof_tests.bitcoin.ninja.");
                        assert_eq!(txt.data, b"wildcard_test");
                } else { panic!(); }
        }

        #[test]
        fn check_simple_nsec_zone_proof() {
                let mut rr_stream = Vec::new();
                for rr in root_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in bitcoin_ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in bitcoin_ninja_nsec_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                let (txt, txt_rrsig) = bitcoin_ninja_nsec_record();
                for rr in [RR::Txt(txt), RR::RRSig(txt_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }

                let mut rrs = parse_rr_stream(&rr_stream).unwrap();
                rrs.shuffle(&mut rand::rngs::OsRng);
                let verified_rrs = verify_rr_stream(&rrs).unwrap();
                let filtered_rrs =
                        verified_rrs.resolve_name(&"a.nsec_tests.dnssec_proof_tests.bitcoin.ninja.".try_into().unwrap());
                assert_eq!(filtered_rrs.len(), 1);
                if let RR::Txt(txt) = &filtered_rrs[0] {
                        assert_eq!(txt.name.as_str(), "a.nsec_tests.dnssec_proof_tests.bitcoin.ninja.");
                        assert_eq!(txt.data, b"txt_a");
                } else { panic!(); }
        }

        #[test]
        fn check_nsec_wildcard_proof() {
                let check_proof = |pfx: &str, post_override: bool| -> Result<(), ()> {
                        let mut rr_stream = Vec::new();
                        for rr in root_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                        for rr in ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                        for rr in bitcoin_ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                        for rr in bitcoin_ninja_nsec_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                        let (txt, txt_rrsig, nsec, nsec_rrsig) = if post_override {
                                bitcoin_ninja_nsec_post_override_wildcard_record(pfx)
                        } else {
                                bitcoin_ninja_nsec_wildcard_record(pfx)
                        };
                        for rr in [RR::Txt(txt), RR::RRSig(txt_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }
                        for rr in [RR::NSec(nsec), RR::RRSig(nsec_rrsig)] { write_rr(&rr, 1, &mut rr_stream); }

                        let mut rrs = parse_rr_stream(&rr_stream).unwrap();
                        rrs.shuffle(&mut rand::rngs::OsRng);
                        // If the post_override flag is wrong (or the pfx is override), this will fail. No
                        // other calls in this lambda should fail.
                        let verified_rrs = verify_rr_stream(&rrs).map_err(|_| ())?;
                        let name: Name =
                                (pfx.to_owned() + ".wildcard_test.nsec_tests.dnssec_proof_tests.bitcoin.ninja.").try_into().unwrap();
                        let filtered_rrs = verified_rrs.resolve_name(&name);
                        assert_eq!(filtered_rrs.len(), 1);
                        if let RR::Txt(txt) = &filtered_rrs[0] {
                                assert_eq!(txt.name, name);
                                assert_eq!(txt.data, b"wildcard_test");
                        } else { panic!(); }
                        Ok(())
                };
                // Records up to override will only work with the pre-override NSEC, and afterwards with
                // the post-override NSEC. The literal override will always fail.
                check_proof("a", false).unwrap();
                check_proof("a", true).unwrap_err();
                check_proof("a.b", false).unwrap();
                check_proof("a.b", true).unwrap_err();
                check_proof("o", false).unwrap();
                check_proof("o", true).unwrap_err();
                check_proof("a.o", false).unwrap();
                check_proof("a.o", true).unwrap_err();
                check_proof("override", false).unwrap_err();
                check_proof("override", true).unwrap_err();
                // Subdomains of override are also overridden by the override TXT entry and cannot use the
                // wildcard record.
                check_proof("b.override", false).unwrap_err();
                check_proof("b.override", true).unwrap_err();
                check_proof("z", false).unwrap_err();
                check_proof("z", true).unwrap_err();
                check_proof("a.z", false).unwrap_err();
                check_proof("a.z", true).unwrap_err();
        }

        #[test]
        fn check_txt_sort_order() {
                let mut rr_stream = Vec::new();
                for rr in root_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                for rr in bitcoin_ninja_dnskey().1 { write_rr(&rr, 1, &mut rr_stream); }
                let (mut txts, rrsig) = bitcoin_ninja_txt_sort_edge_cases_records();
                write_rr(&rrsig, 1, &mut rr_stream);
                for txt in txts.iter() { write_rr(txt, 1, &mut rr_stream); }

                let mut rrs = parse_rr_stream(&rr_stream).unwrap();
                rrs.shuffle(&mut rand::rngs::OsRng);
                let verified_rrs = verify_rr_stream(&rrs).unwrap();
                let mut verified_txts = verified_rrs.verified_rrs
                        .iter().map(|rr| if let RR::Txt(txt) = rr { txt.clone() } else { panic!(); })
                        .collect::<Vec<_>>();
                verified_txts.sort();
                txts.sort();
                assert_eq!(verified_txts, txts);
        }

        #[test]
        fn rfc9102_parse_test() {
                // Note that this is the `AuthenticationChain` field only, and ignores the
                // `ExtSupportLifetime` field (stripping the top two 0 bytes from the front).
let rfc9102_test_vector = Vec::from_hex("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").unwrap();

                let mut rrs = parse_rr_stream(&rfc9102_test_vector).unwrap();
                rrs.shuffle(&mut rand::rngs::OsRng);
                let verified_rrs = verify_rr_stream(&rrs).unwrap();
                assert_eq!(verified_rrs.verified_rrs.len(), 1);
                if let RR::TLSA(tlsa) = &verified_rrs.verified_rrs[0] {
                        assert_eq!(tlsa.cert_usage, 3);
                        assert_eq!(tlsa.selector, 1);
                        assert_eq!(tlsa.data_ty, 1);
                        assert_eq!(tlsa.data, Vec::from_hex("8bd1da95272f7fa4ffb24137fc0ed03aae67e5c4d8b3c50734e1050a7920b922").unwrap());
                } else { panic!(); }
        }
}